Question

# The number of optically active isomers possible for - is -

- 2
- 4
- 6
- 8

## The correct answer is: 8

### Related Questions to study

### It has chiral centre (*). It is-

### It has chiral centre (*). It is-

### Let g be the acceleration due to gravity at earth's surface and k be the rotational K.E of earth suppose the earth's radius decreases by 2% keeping alt other quantities same then

### Let g be the acceleration due to gravity at earth's surface and k be the rotational K.E of earth suppose the earth's radius decreases by 2% keeping alt other quantities same then

### Optically active isomers but not mirror images are called -

### Optically active isomers but not mirror images are called -

The sum of the subtangent and subnormal to the curve at is

For such questions, we should know the formula of subtangent and subnormal

The sum of the subtangent and subnormal to the curve at is

For such questions, we should know the formula of subtangent and subnormal

### Which is a pair of geometrical isomers ?

### Which is a pair of geometrical isomers ?

### are-

### are-

### Assuming earth to be a sphere of a uniform density, what is value of gravitational acceleration. in mine 100 km below the earth surface .... ms^{-2}

### Assuming earth to be a sphere of a uniform density, what is value of gravitational acceleration. in mine 100 km below the earth surface .... ms^{-2}

### The two optical isomers given below are

### The two optical isomers given below are

### Number of stereoisomers of the given compound is -

### Number of stereoisomers of the given compound is -

### The given pair is

### The given pair is

### If the mass of earth is 80 times of that of a planet and diameter is double that of planet and 'g' on the earth is 9.8 ms^{2}, then the value of ' g ' on that planet is ….

### If the mass of earth is 80 times of that of a planet and diameter is double that of planet and 'g' on the earth is 9.8 ms^{2}, then the value of ' g ' on that planet is ….

If the relation between subnormal 'SN' and subtangent 'ST' at any point on the curve by is then

For such questions, we should know the formulas of subnormal and subtangent.

If the relation between subnormal 'SN' and subtangent 'ST' at any point on the curve by is then

For such questions, we should know the formulas of subnormal and subtangent.